DE2102255B2 - Catalytic post-combustion device for the exhaust gases from internal combustion engines - Google Patents

Description

the walls of the catalytic converter

50 chamber loosely interlocking housings, which

The invention relates to a catalytic post-change with temperature changes unhindered against each other

combustion device for the exhaust gases from combustion other can shift what the service life of the

power machines with an elongated, on each side whole plant considerably increased,

each with a gas connection pipe provided housing, the inventive idea allows the most diverse

in which symmetrical to its longitudinal axis a 55 possible execution options. One of these is in the

in longitudinal section V-shaped, double-walled, reproduced the drawing, namely shows

Catalyst mass receiving hollow body with gas F i g. 1 is a side view of an inventive

permeable parallel walls is housed, afterburning device, partly in section,

the one with its wide end on a head side of the F i g. 2 shows a section along line 2-2

Housing rests and with its tip freely in this 60 Fig. 1,

reaches in. In those, by the United States patent Fig. 3 is a plan view of Fig. 1, partially in

script 3 113 000 known post-incineration cut, and

The catalyst uptake F i g. 4 and 5 perspective views of single-chamber made of two flat, perforated, mutually spaced parts for the formation of the V-shaped catalytic converter Plates formed that extend over the full width 65 receiving chamber.

of the outer housing and between As shown in the drawing, a longitudinal

take up the catalyst mass and in the par- iiches tubular, oval or elliptical in cross-section

allel to each other arranged sieve funnels in-tisch housing 1 for use, which in the

a head wall 3 has an exhaust gas inlet 2 and in which the dimensions of the top wall 5 opposite the catalyst chamber has an exhaust gas outlet 4 denden housing parts 6 and 9 sma, aaö inside this housing is symmetrical, both slightly with top and bottom to each other to the longitudinal axis one essentially Y-shaped or adjacent to one another ^ ^χη ™ ^{α Deiae} 8 ^e "wedge-shaped, in the gas flow direction 5 together in the oval housing 1 place Fig. 3 to 5 mer 11 wildly in the housing 1 a gas port openly connected to the port 2, it is divided into two loosely interlocking plug-in chambers 15, while the housing parts 6 and 9, which are behind the catalyst In each case a pervious flat base and an impermeable space in the im- io sator receiving chamber 11 in the housing lverDieiDenae represents the gas outlet chamber 16, which have in the flat ceiling. On the other hand, gas outlet nozzle 4 merges on the sides. _K - κ _v the outer housing part 6 by curved outward As F i g. 3 show, the above-described Kata side walls 7 and the inner housing part 9 are placed through the lysator receiving chamber 11 in the (then one outwardly curved permeable walls iC that they usually border with the mentioned ν ± <οπη consists of ceiling, floor and the top wall 3. In this a ver-side wall made of fire-resistant sheet metal. The side-closable insertion opening 17 for the catalyst walls 7 and 10 are provided with openings, such as drilling compound. The exhaust gases from the combustion crevices, slots 8 or the like. They can, however, flow into the chamber made of wire mesh, a grid, sieve or the like via the machine noticeable Wi- reducing cross-section, whereby a division can be allowed to pass through Permitted walls 10 and 7 of the mutually opposite side walls 10 of the inner housing part 9 remaining overlying legs of the free space in the flowncncncnbende büdet the catalyst receptacle a ₅ device tapering catalyst chamber 11, which comes with one of the usual catalyst with the gas flow First of all, the Hindurcütntt is filled with masses, ie with masses which have an oxidation capacity due to the walls 10 with the smaller oversized and an effective area of the catalyst bed in contact, from which the same oxidation of the exhaust gases to be treated ensure optimal conditions for the start of the catalyst . This can be, for example, metals. The developing groups I, V, VI and VIII of the periodic keling intense heat spreads from the bmlali system, in particular copper, chromium, iron, cobalt, over the entire V-shaped catalyst bed nickel and / or certain precious metals, such as B. SiI- from what a higher effectiveness of the catalytic ber, platinum, palladium, etc. or combinations with oxidation and thus a quick Aulneming of the inorganic refractory oxides, such as aluminum 35 total post-combustion device. nium, aluminum silicates, aluminum zirconium, thor- Of course, it is also possible to use the; As FIGS. 1, 2 and 4 show, over the length of the in-catalyst chamber, housing part 9, which is unequal over its length, is to be designed with a moderately thick or wide on its top surface, so that, for example, the plate 12 applied beneath the ceiling of the body 40 increases the thickness of the catalyst bed, part 6 of the housing has a storage space 14 for additional cata- can, which for certain operating conditions can be divided off appropriately for lysatomaceous material. The plate 12 is moderate. The outer housing can just as well be provided along the edge along bores 13, through rectangular or in another manner adapted to the respective purpose of the catalyst particles from the storage space 14 and, if necessary, can slide into the actual catalyst receiving chamber 11 45 with an emem resonator or emem. Be connected to the exhaust muffler.

1 sheet of drawings

Claims (5)

1 2 chen, the Innenraiim in the gas outlet chamber patent claims: passes. The gas penetrates from the outside to the inside. Since the gas passage area on the inflow 1. The catalytic post-combustion device is considerably larger than the considerably hot one the exhaust gases from internal combustion engines 3 ren outflow cables must be a relatively long time with an elongated, on each side of the head with a start-up time to be accepted until the Kataeinem Gas connection pipe provided housing, gets hot enough in the lysator, which with aosatzweisem Btwelchem symmetrical to the longitudinal axis of a drive of the internal combustion engine is particularly disadvantageous V-shaped, double-walled in longitudinal section, the object of the invention is to provide an afterburning catalyst mass receiving hollow body with io nungseimichtung with the shortest start-up time to sheep gas permeable parallel walls where the catalyst mass rises so quickly that which is heated with its wide end at one head, that even with intermittent prayers one side of the housing and with its tip rapid and complete afterburning of the Ausfrei reaches into this, thereby identifying puff gases takes place. According to the invention, this is thereby achieved indicates that it reaches the catalyst receiving chamber that it reaches the catalyst receiving chamber Chamber (11) forming hollow bodies in general forming hollow bodies in general gas diameter Gas flow direction tapered, inner, flow direction tapered, inner, gas-permeable seigas-permeable Side walls (10) and outer gas walls and outer gas-permeable side walls permeable side walls (7) with sealing edges on the housing (1) with sealingly adjacent edges has adjacent edges, one with so, one with a gas inlet nozzle a gas inlet connection (2) provided with a gas inlet chamber and a gas inlet chamber with a gas step chamber (15) and a gas outlet chamber provided with an outlet nozzle inside Gas outlet nozzle (4) provided gas outlet chamber- limited. In contrast to the well-known post-endorsement (16) limited inside. combustion ^ device, the gas penetrates from the 2. Nachverbrennur.gseinrichtung after the 25 interior of the catalyst chamber to the outside, Claim 1, characterized in that the gas The exhaust gases meet the smaller inner one permeable side walls (7, 10) and perforated surface of the catalyst chamber and provide here are curved outwards. for rapid heating of the adjacent cat- 3. After incinerator after analyzer mass, which then applies to the entire mass Claim 1 or 2, characterized in that the 30 spreads out. gas-permeable side walls (7, 10) each. Preferably the gas-permeable side walls are through flat walls are connected, the under walls of the chamber perforated and outwardly mutual The possibility of thermal expansion arches against each other. They are expediently in contact with each other by level. Walls connected, which under mutual heat 4. Afterburning device rest against one another after a stretch possibility. of claims 1 to 3, characterized in that the housing has oval shape with particular advantage that the housing (1) has an oval cross-section. Cross-section. A quay analyzer storage room results, 5. Post-combustion device according to one when the outer gas-permeable side walls of the claims 1 to 4, characterized in that the chamber at a distance from its upper connecting wall to form a catalyst storage space 40 are connected by a further wall, which (14) the outer gas-permeable side walls (7) in the area of the catalyst receiving chamber after a distance to its upper connecting wall has filling openings for catalyst particles and connected by a further wall (12) which rests against the upper connecting wall of the inner gas-permeable side walls in the area of the catalyst receiving chamber (11).
Refill openings (13) for Kataiysatorteilchen 45 To avoid deformations, can have and on which the upper connecting wall flat wall parts rests expediently with ribs or similar inner gas-permeable side walls. borrowed stiffeners. On the other hand, they form the gas inlet chamber and gas outlet chamber